peptide synthesis workflow
TRANSCRIPT
Peptide Synthesis Workflow | © Biotage 2020
Smarter Solutions for Your Peptide Workflow
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The typical peptide synthesis workflow broadly involves synthesis, purification and evaporation steps to give the final pure peptide. Although the synthesis step is the most important part of the workflow, purifi-cation and evaporation issues can impact dramatically on the efficiency of your workflow and are the cause of many bottlenecks. Biotage has developed a range of tools to improve the peptide synthesis workflow, from synthesis of crude peptides through to the final purified product. These solutions make your workflow more efficient and improve the quality of peptides you synthesize. Our workflow solutions are used in pharma, biotech, CRO and academic laboratories throughout the world.
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CONTENTS
2 SynthesisBiotage Peptide Synthesizers Overview 3Biotage® Initiator+ Alstra™ 4Syro I and II 10Biotage® Initiator Peptide Workstation 19Biotage® Initiator+ SP Wave 20ChemMatrix® Resins 22
23 PurificationBiotage Flash Purification Systems 24Biotage® Sfär Bio 26
28 EvaporationBiotage® V-10 Touch 29Technical Specifications 30Ordering Information 34
1
Peptide Synthesis Workflow
Increased loading capacity compared to prep RP-HPLC which allows more peptide to be processed in a single injection.
Enable shorter separation times and better recoveries.
Flash purification can be used as the sole purification method or pre-purification step to enhance final purification in tandem with RP-HPLC.High performance flash cartridges with wide pore media (300 Å) for reversed phase purification of peptides.
Elevated temperatures increase the speed of amide bond formation.
Use high concentration of activated amino acids to increase the rate of amide bond formation.Efficient oscillation or vortex mixing for superior mixing and homogeneous heat distribution.
Better synthesis results in less chromatography runs.
Large numbers of fractions can be generated during purifica-tion of peptides and concentrating and pooling them can be time consuming. Peptide chemists are now incorporating our novel evaporation technology in their workflow, to rapidly evaporate aqueous and organic solvents with boiling points from 30 °C to 205 °C.
Biotage® offers a wide range peptide synthesizers for Fmoc solid phase peptide synthesis. Synthesize peptides at elevated temperatures using either microwave heating or in parallel with a heating block. Synthesize a single peptide or even hundreds of peptides in parallel.
The purification step (RP-HPLC) is one of the main bottlenecks in the peptide synthesis workflow. Flash chromatography can now be used as a fast and efficient purification tool for peptide chemists using a new range of flash cartridges designed specifically for the purification of crude synthetic peptides.
1 Synthesis How Do We Improve the Workflow?
2 Purification
3 Evaporation
4 Pure Peptide
Rapid removal of cleavage cocktails.
Removal of high boiling solvents used in reactions or storage solvent such as DMSO.
Easily combine or concentrate Flash or HPLC fractions prior to freeze drying.
Use post synthesis or post purification in the workflow.
Basic research Drug development Vaccines Nanotechnology
Getting the pure peptide is just the start. Now your research really begins in the vast field of peptide applications.
Flash purification and mass detection instruments supported by a range of flash cartridges for
peptide purification.
Thin film evaporator.Liquid handler for automation.
Manual, semi-automated and fully automated peptide synthesizers.
Resins.
Biotage® Selekt
Biotage® Selekt
Biotage® V-10 Touch
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Synthesis
Biotage Peptide Synthesizers OverviewBiotage®
Initiator+ Alstra™ Syro I Syro IIBiotage®
Initiator+ SP Wave
Biotage®
Initiator Peptide Workstation#
Instrument
Level of Automation Full Full Full Semi Manual
Microwave Heating × ×
Conventional Heating Option × × ×Room Temperature Max. Number of Peptides* 1 96 576 1 1
Reactor Vial Sizes (mL)*
5
10
30
0.4251020
0.4251020
2510
520
Scale Per Reactor Vial (mmol)**
0.005–2.00 0.001–0.60 0.001–0.60 0.005–0.30 0.05–0.5
Activation Method
in situ and pre-activation
in situ and pre-activation
in situ and pre-activation
in situ and pre-activation
in situ and pre-activation
Amino Acid Vessels (OtherRacks Available)
32 x 30 mL(standard)
40 x 50 mL(standard)
40 x 50 mL(standard) N/A N/A
Reagent Bottles 5 5 7 3 N/A
External Bottle Positions 3 1 2 1 N/A
Mixing Oscillation Vortex Vortex Vortex or magnetic stirring Magnetic stirring
Inert Gas Option ×Microwave Assisted Organic Synthesis (MAOS)
(option)
× ×
UV Monitoring Option × × × ×
#Requires Biotage® Initiator+ (sold separately). Can be used with Biotage® Initiator+ SP Wave or Biotage® Initiator+ Alstra™
in organic synthesis mode.*Dependent on reactor block configuration.**Dependent on reactor vial size, resin type and resin loading.
4 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
Biotage® Initiator+ Alstra™
Automated Microwave Peptide Synthesizer
The Biotage® Initiator+ Alstra™ is a fully automated microwave peptide synthesizer with built in flexibility for both small and large scale synthesis.
Microwave irradiation is a fast and precise heating method for the synthesis of peptides at elevated temperatures providing dramatic reductions in synthesis time along with an increase in crude purity and yield compared to conventional synthesis methods. With functionality such as the unique Branches™ tool, preactivation, “edit on the fly” as standard and with options for UV monitoring and microwave assisted organic synthesis (MAOS) makes Initiator+ Alstra™ the ideal tool for synthesizing interesting peptides, peptoids, PNAs and peptidomimetics.
Flexibility Is at the Heart of the instrumentThe flexible reagent setup and modular amino acid racks allow different coupling strategies which require different coupling reagents to be easily accomplished. Place the amino acids or reagents anywhere on the rack tray.
Flexible synthesis scales from 5 µmol - 2 mmol easily accom-modates most laboratory synthesis scale requirements.
Peptide synthesis is performed in disposable reactor vials which can be easily inserted and removed without requiring cumbersome disconnection of parts.
Digital syringe pumps guarantee accurate dispensing of all reagents, and the dual needle design reduces the possibility
“We provide custom peptides supplying standard and exotic peptides, so speed is important but we also need high quality peptides – that’s why we purchased a second Alstra.”
Director, CRO, Sweden
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Synthesis
Simplicity of operation using the versatile touch screen interface.
The robot liquid handler accurately dispenses the exact amount of reagents required and can dispense as little as 100 μl.
Flexible rack set-up allows reagents to be positioned anywhere.
Five reagent bottles allowing different coupling reagents and capping steps during a synthesis.
Three external system solvents.
The robot liquid handler accurately dispenses the exact amount of reagents required and can dispense as little as 100 μl. Three external system solvents.
Five reagent bottles allowing Five reagent bottles allowing different coupling reagents and different coupling reagents and capping steps during a synthesis.capping steps during a synthesis.
Five reagent bottles allowing different coupling reagents and capping steps during a synthesis.
Standard rack showing 5 x 185 mL reagent bottles and 32 x 30 mL amino acid rack.
of cross contamination. The patented oscillating mixing technology (US 9534011) is superior to nitrogen gas bubbling and ensures homogeneous heat distribution and efficient mixing of reagents up to 2 mmol scale synthesis.
The integrated computer with 10” touch screen which is tablet like in operation controls all the instrument functions. This avoids the need for an external computer thus reducing footprint as space is a valuable commodity in today’s research laboratories.
Cover plates with option to add nitrogen flow over the reagents using the Inert Gas manifold option.
6 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
Software FeaturesBiotage® Initiator+ Alstra comes with the most user friendly, intuitive and flexible software on the market.
» No need to create methods for each scale. Just input the scale that you want and select the vial size and the methods which adjusts the reagent quantities accordingly.
» Fully automate all cycles and/or use semi-automated operations where the Fmoc deprotection and washing steps are automated and then manually add expensive building blocks. This gives you complete control over all reaction steps.
» Easily pause and re-start a synthesis to remove samples, for monitoring and analysis of intermediate reaction steps, without cumbersome steps just to remove a reactor vial.
» Assigning positions to non-standard/non-natural amino acids is straightforward and no different to standard amino acids. Using the touch screen just drag and drop to the desired position.
» Comes with pre-installed methods which are easily customized.
» Custom methods can be easily changed for different scales for the same vial size.
» Easily write methods from scratch.
Preactivation/PremixingChoose to activate the amino acid in situ or preactivate any amino acid in a cycle as required.
» Preactivate any position in the sequence.
» Set the time required for preactivation reaction to occur.
» Use a designated position on the amino acid rack for premixing to occur.
» Allows dispensing into the amino acid rack which can be used for other premixing type operations.
E-mail NotificationLet Initiator+ Alstra keep you informed when you are away from the instrument. Receive notification:
» At the end of a synthesis run
» When a pause step has been set after an operation
» When a programmed manual step requires to be executed
» When an error occurs
Preactivation rack (optional accessory).
Calculation table can be exported as a pdf document.
Notification when synthesis completed.
Easy to program using the intuitive software wizard.
7
Synthesis
HNH
O
A
HN
O
L
NH
O
OH
S
HN
O
OH
H
T
NH
O
NH2HN
NH
R
HN
O
A
H ONH
O
F
HN
O
A
NH
O
OH
S
HN
O
OH
H
T
NH
NH
K
H
NH2N
O
HN
O
HO O
N
O
HN
O
OH
H
NH
OH
HN
O
OH
O
NH
O
HO O
HN
O
OH
NH
O
NH
K
P E P T I D E S
Cyclic peptides made on Biotage® Initiator+ Alstra using the Branches™
feature. Structure formula (top) and on-screen representation (bottom).
Left: Cyclic peptide formed via disulfide bridge using Branches™.
Right: Cyclic peptide formed via side-chain to side-chain coupling using Branches™.
Top: complex multi-branched peptide synthesized on Biotage® Initiator+ Alstra using the Branches™ feature.
Bottom: Branches™ representation of complex branched peptide.
H2N
H2N
O
S
NO
HN
O
NH
O
OH
HN
O
OH
HN
O
NH2
NH
HN
HN
O
NH2
NH
NH
HNO
HO
NH
O
HN
O
HO
O
NH
O
S
C
P
A
Y
R
R
Y
L
D
C
N-Terminus
C-Terminus
H2N
H2NO
HN
K
N
O
P
HN
O
ANH
O
OH
Y
HN
O
OHS
NH
O
NH2
NHHN
R
HN
O
NH2
HN
NH
RHN
O
OH
YHN
O
LHN
O
HO
O
D
NH
O
O
E
N-Terminus
C-Terminus
Branches™
Branches™ is a unique tool that simplifies the automation of complex peptide modifications. It allows skilled peptide chemists to assign custom methods and enables scheduling and visualization of operations and can be used with either fully automated or semi-automated protocols. Synthesize cyclic and branched peptides with confidence.
“Edit on the Fly”This is a very powerful tool providing the user with even more control during a peptide synthesis run, just like in manual synthesis, and allows the user to:
» Make changes to a synthesis that is already in progress (after pausing operation).
» Pause and check a coupling and make changes based on the result without having to reprogram the synthesis, with the additional volume of reagents required adjusted in the calculation table.
» Make changes to a manual, semi-automated or automated operation.
» Avoid unnecessary double couplings and easy to implement if required thereby conserving valuable building blocks.
Calculation table adjusted after changes.
L Learn More
Automated Synthesis of Cyclic PeptidesApplication Note (AN093)
Automated Synthesis of a Complex Multi-branchedPeptideApplication Note (AN094)
Synthesis of a Branched Peptidoglycan Mimic and MAPApplication Note (AN097)
Making Branched Peptides on Biotage® Initiator+ Alstra™
Peptide SynthesizerProduct Video
8 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
Microwave Assisted Organic Synthesis (MAOS)The Alstra MAOS kit enables Biotage® Initiator+ Alstra™ to be used as a high-end specification microwave synthesizer, providing access to higher temperatures and pressures of up to 300 °C and 30 bar. Easily switch between microwave peptide and microwave organic synthesis modes of operation, which is useful when synthesizing challenging non-natural building blocks in MAOS mode and then incorporating into a peptidomimetic in peptide mode. This dual capability uses two types of mixing; oscillating mixing for peptide synthesis and magnetic stirring for organic synthesis. Utilize all Biotage glass microwave reaction vials, from 0.2 to 20 mL.
Optional AccessoriesUV MonitoringThe Alstra UV monitoring kit enables the Initiator+ Alstra™ to perform UV monitored Fmoc deprotection in the 10 or 30 mL reactor vial. Based on the UV data, you can automatically set the number of deprotection steps (iterations) to be performed and make adjustments to the next coupling method such as extending the time of coupling or increase the number of couplings to be performed. The information is presented clearly for each cycle in the synthesis report and also in the final summary for the complete synthesis.
Organic synthesis mode.
Complete synthesis summary using UV monitoring.
L Learn More
Microwave assisted organic and Peptide Synthesis of aNon-natural arginine Residue and incorporation into aCyclic Peptide mupain-1 analogueApplication Note (AN 111)
Cycle summary using UV monitoring.
Alstra™ Remote
The Alstra™ Remote software provides users the ability to program a complete synthesis setup on their own computer off-line, including calculation of reagents required which can be prepared in advance of a synthesis, thus improving productivity and minimizing turnaround time between consecutive syntheses.
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Synthesis
Inert Gas Manifold Inert gas can be connected as standard to the microwave cavity on Biotage® Initiator+ Alstra™ systems. However, the inert gas manifold is an optional accessory. When used with the cover plates, it enables nitrogen flow over the reagents on the rack tray, thereby keeping Fmoc amino acids and reagents under an inert atmosphere.
Amino Acid RacksAdditional amino acid rack options are available for smaller (10 mL) and larger tubes (50 mL).
Consumables A wide variety of consumables are available for use with Initiator+ Alstra.
L Learn More
Peptide Synthesis Workflow SolutionsCustomer Case (PPS439)
Using Biotage® Initiator+ Alstra™ in PNA & Peptide ResearchCustomer Case (PPS410)
Microwave Assisted Synthesis of Peptide Nucleic Acid (PNA) OligomersApplication Note (AN 110)
High Recovery and Yield of Amphipathic Peptide “18A”Application Note (AN 103)
Small μmol Scale Synthesis of a Labeled Antimicrobial Peptide Using Biotage® Initiator+ Alstra™
Application Note (AN098)
Large Scale Microwave Heated SPPS Using Biotage® Initiator+ Alstra™
Application Note (AN068)
Biotage® Initiator+ Alstra™ Peptide SynthesizerProduct Video
Modular racks allows for flexible reagent setup.Inert gas manifold includes manifold and regulator.
Synthesis
Peptide synthesis is performed in disposable polypropylene reactor vials with PTFE frits. Available in three sizes: 5 mL, 10 mL and 30 mL.
Other consumables include amino acid tubes, vial extensions, caps, plugs and PTFE stop cocks.
10 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
Syro I and IIAutomated Parallel Peptide Synthesizers
Syro I and Syro II systems are fully automated computer controlled peptide synthesizers with one or two pipetting robot arms. They are the perfect choice for demanding peptide synthesis applications.
Automated parallel operation allows for the synthesis of more peptides in shorter times. The Syro I system is configured with one reactor block, and the Syro II can be configured with two reactor blocks for maximum throughput and productivity.
Digital syringe pumps enable exact dispensing of all reactants with microliter precision minimizing waste and costs. Optimal mixing of the reactants is provided by a variable speed vortex mixer. This guarantees the best synthesis results in terms of yield and purity.
The Syro software controls the instrument functions and calcu-lates all amounts and volumes of amino acids and reagents required. Each cycle of the synthesis can receive a completely different protocol. This flexibility allows not only single or multiple couplings, but also complete freedom in the choice of coupling strategies within any synthesis cycle.
Inert GasThis option enables a way to exclude moisture during peptide synthesis by providing a “blanket” of nitrogen above the reagent bottles, amino acid rack and reactor vials.
Tip SynthesisThis option is designed for applications that require large numbers of peptides in small quantities (1–5 μmol).
Syro I with 24-position reactor block.
Efficient vortex mixing gives the best
synthesis results.
The unique U-block reactor assembly has an independent flow path for each reactor vial with no
possibility of cross-contamination.
Precise digital syringe pumps guarantee low amino acid and reagent consumption, reducing running costs.
Manually adjust speed control for vortex mixer.
Amino acid rack and preactivation racks available.
Efficient vortex mixing gives the best
synthesis results.
11
Synthesis
Syro II with Inert Gas and Tip Synthesis options.
Intuitive Syro software controls instrument functions and generates calculation sheet with quantities and volumes of amino acids and reagents required.
3-tip washcomb for fast washing
and dispensing of reagents.
L Learn More
Synthesis of Peptides in Parallel at Elevated Temperatures, Using the Heating Blocks for Syro Automated Parallel Peptide SynthesizersApplication Note (AN081)
High Throughput Synthesis of Over 1700 O-Glycopeptides for the Construction of Novel Peptide MicroarraysApplication Note (AN096)
Heating BlocksThis option enables parallel peptide synthesis at elevated temperatures to increase the speed of amide bond formation.
Syro I and II at a GlanceSyro I Syro II
Robot arms 1 2
Reactor blocks 1 2
Digital syringe pumps 2 4
Reagent bottles 2 x 500 mL3 x 200 mL
3 x 500 mL4 x 200 mL
External bottle positions 1 2
Waste bottle 10 L 20 L
Exhaust fan.
“We chose the Syro because we synthesize non-standard peptides and therefore, an instrument capable of synthesizing small quantities of different peptides on a flexible scale was an absolute requirement.”
Director, Biopharmaceutical Co., Japan
Flexible reactor block formats increases synthesis throughput and results in the highest productivity.
Intuitive Syro software controls instrument functions and generates calculation sheet with quantities and volumes of amino acids and reagents required.acids and reagents required.
Supplied with desktop PC, monitor and printer.
12 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
Syro OptionsConfigure your Syro synthesizer by making five essential pre-order selections:
» Syro base system
» Voltage
» Reactor blocks
» Inert gas
» Tip synthesis
Syro I (one robot arm and one reactor block) Syro II (two robot arms and two reactor blocks)
24 position for 2 mL, 5 mL and 10 mL reactor vials, including 24 position empty head.
48 position for 2 mL reactor vials, including 48 position empty head.
Select the power requirements applicable for your region. » 115 V, 60 Hz
» 230 V, 50 Hz
» 100 V, 50/60 Hz
System Options Depending on Your Throughput Requirements1
Power Options2
Standard Reactor Block Options3
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Synthesis
Gas flow controls and pressure regulators. Individually control flow for amino acid rack, reagent bottles and reactor block. Open valves only for the components in use.
Amino acid rack under inert gas.
Reagent bottles with inert gas caps.
Gas flow controls and pressure regulators. Individually control flow for amino acid rack, reagent bottles and reactor block. Open valves only for the components in use.
Inert gas cover plates available for different reactor block formats.
Inert gas cover plates available for different reactor block formats.
2 mL and 5 mL reactor vials can be used with all systems. Larger vials have special inert gas compatible size.
This option is normally recommended for laboratories that are susceptible to humidity. The inert gas option includes all the gas controls, covers for the amino acid rack (or preactivation rack if selected) and reagent bottles.
What Is included in the Inert Gas Option?» Gas flow controls and pressure regulators
» Amino acid rack under inert gas
» Reagent bottles with inert gas capsNote: Inert gas cover plates for the reactor blocks to be ordered separately.
Amino acid rack under inert gas.
Inert Gas Option4
14 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
This option is designed for applications that require large numbers of peptides in small quantities (1–5 μmol). A Tip Synthesis Module can make up to 96 peptides at a time. Each peptide is synthesized in a 0.4 mL tip (with PE frit) where accurate dispensing of reagents is essential. The Syro I system can be equipped with one Tip Synthesis Module, and the Syro II system can be equipped with three modules in standard configuration, or customized with 6 modules, allowing up to 576 peptides to be made at the same time.
What is included in the Tip Synthesis option?
» Vacuum pump box modification
» Synthesis module
» Resin dispenser set
» Cleavage module
Tip Adapter Rack.Reactor Holder
Plate.
Valve Plate.
Reactor HolderPlate.
Valve Plate.
Tip Adapter Rack.
Synthesis Module
Resin Dispenser Set Tip Reactors
Resin dispenser set for dispensing resin in to the tip reactors. 0.4 mL tip reactor with PE frit.
Amino acid pre activation rack 50 positions for 25 x 50 mL and 25 x 15 tubes.
Amino acid pre activation rack 50 positions under inert gas, for 25 x 50 mL and 25 x 15 mL tubes if
inert gas option is selected.
Tip Synthesis Option5
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Synthesis
Vacuum Box containing deep well plate.
Dispenser/Aspirator.
Reactor Blind Plate.
Reactor Holder Plate.
Reactor Cover Plate.
Cleavage Module
Tip Work Bench.
L Learn More
Tip Synthesis on Syro Peptide Synthesizer Instruction Video
Reactor Cover Plate.
Reactor Blind Plate.
Reactor Holder Plate.
16 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
Syro System Configuration Guide
Select Syro System Type
S1PS - Syro IS2PS - Syro II
Select Region/Power Requirements
1 - 60 Hz, 115 VAC (USA)2 - 50 Hz, 230 VAC (UK, EU)3 - 50/60 Hz, 100 VAC (JPN)
Select Standard Reactor Block
A - 48 Position (2 mL Reactor Vials)B - 24 Position (2 mL, 5 mL, and 10 mL Reactor Vials)
Select or Deselect Inert Gas Option
IG - Inert Gas RequiredX - Inert Gas Not Required
Select or Deselect Tip Synthesis Option
TS - Tip Synthesis RequiredX - Tip Synthesis Not Required
Build Your Syro System Part Number
S1PS-1-A-IG-TS
1
2
3
4
5
6
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Synthesis
Syro AccessoriesThese products can be ordered separately for your existing Syro system.
Reactor BlocksU-blocksIncludes base block and interchangeable adapter racks to fit the vial sizes as indicated below. Requires a corresponding empty head, sold separately.
Heating BlocksIncludes base block and heating plate. Available in 24 position format only. Requires a 24 position empty head, sold separately.
Note: Service engineer required for field upgrade.
» 12 position for 2 mL, 5 mL, 10 mL and 20 mL reactor vials
» 24 position for 2 mL, 5 mL and 10 mL reactor vials
» 48 position for 2 mL reactor vials
» 48 position for 5 mL reactor vials (Syro II only)
» 96 position for 2 mL reactor vials (Syro II only)
» 24 position for 2 mL reactor vials
» 24 position for 5 mL reactor vials
» 24 position for 10 mL reactor vials
Empty HeadsRequired for use with corresponding reactor blocks.
Heating PlatesInterchangeable heating plates for heating blocks.
» Empty head 12 position
» Empty head 24 position
» Empty head 48 position
» Empty head 96 position (Syro II only)
» 24 position for 2 mL reactor vials
» 24 position for 5 mL reactor vials
» 24 position for 10 mL reactor vials
Adapter rackAdapter rack
18 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
CleavageStandalone Vortex MixerEnables agitation of two reactor blocks during the cleavage step. Includes counter weight to balance vortex mixer when cleaving one standard reactor block.
Transfer UnitTransfer units for pressure mediated transfer of the cleavage reaction in parallel directly into a collection rack containing centrifuge tubes. Available in 24 position and 48 position formats for both Syro I and Syro II systems.
L Learn More
Biotage® Cleavage and Transfer Workstation 2012Instruction video
Syro ConsumablesReactor VialsDisposable polypropylene reactor vials with PTFE frits are available in various sizes. Compatible with heating blocks and inert gas options.
2 mL 5 mL 10 mL (inert gas) 10 mL 20 mL (inert gas) 20 mL
Plungers & StoppersPlungers for Syro reactor vials can be used for performing manual cleavage reactions. Stoppers are used to plug unused positions on the reactor block.
2 mL PP plunger 5 mL PP plunger 5 mL PP plunger with PTFE cap
10 mL PP plunger with PTFE cap
Position stopper Luer stopper
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Synthesis
Biotage® Initiator Peptide WorkstationManual Microwave Peptide Synthesis
A cost effective and versatile accessory for manual microwave peptide synthesis and cleavage when used with a Biotage® Initiator+ microwave synthesizer.
The Biotage® Initiator+ microwave workstation can be used to perform various types of chemistry including solution phase and solid phase peptide synthesis, organic and PNA synthesis. Reactions are performed in the microwave peptide vial under atmospheric conditions at temperatures up to 100 °C in a Biotage® Initiator+. The vial contents can be filtered quickly and washed using the wash station when connected to a vacuum source.
Reusable snap cap with septum.
Check valve allows for easy emptying of the vial when inserted in the vacuum head.
Attach a vacuum source to the vacuum head for fast and easy emptying.
Material can be collected in a standard GL 45 laboratory
glass bottle (shown right), 50 mL centrifuge tube (shown left) or a round bottom flask.
The microwave peptide vial is available in two different
sizes; 2–5 mL and 10–20 mL for synthesis on 50–500 μmol
scale respectively.
» Entry-level microwave peptide synthesis accessory
» For use on Biotage® Initiator systems without modifications
» Fast emptying and washing for rapid cycle times
» Perform solution and solid phase microwave peptide synthesis
» Reusable 2–5 mL or 10–20 mL microwave peptide vials
» Synthesis on 50–500 μmol scale
» Suitable for PNA and peptoid synthesis
L Learn More
Microwave Heating in Solid-Phase Peptide Synthesis: Three Degrees of Automation Poster (P043)
Attach a vacuum source to the vacuum head for fast and easy emptying.
“The Initiator Peptide Workstation is a very versatile add-on to our Initiator, simplifying the workflow considerably for the occasional microwave assisted peptide synthesis.”
Assistant Professor, Denmark
Biotage® Initiator+ required (sold separately).
20 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
Biotage® Initiator+ SP WaveTwo Synthesizers in One
Biotage® Initiator+ SP Wave is a versatile microwave system for the synthesis of both peptides and organic compounds. It can be used as a standalone single channel microwave peptide synthesizer or easily converted to a high-end microwave synthesizer.
Peptide ModeIt is the ideal tool for the synthesis of peptides, peptidomi-metics, PNA and for organic, medicinal, materials, nano and polymer chemistry applications.
The instrument functions are controlled directly on the built in touch screen interface. Deprotection and washing steps are
automated, while adding activated building blocks is performed manually. With this approach, intermediate reaction steps are easily monitored, and less equivalents can be added to reduce unnecessary waste of expensive reagents. Reactions are performed in disposable polypropylene reactor vials and mixing is achieved by vortex mixing.
This is a powerful devel-opment tool giving total control of the method development process using single or multi-step procedures.
Syntheses are programmed via the 10” touch screen interface.
Accurate liquid dispensing using a digital syringe pump.
Perform small scale microwave synthesis by using single or multistep procedures.
Perform small scale microwave Perform small scale microwave synthesis by using single or synthesis by using single or multistep procedures.multistep procedures.
Dual mode of mixing. Vortex for peptide synthesis and magnetic stirring for organic synthesis.
Requires waste bottle and vacuum pump (sold separately).
21
Synthesis
“I think it’s an amazing little beast. Semi-automated, which I think is ideal for an academic lab making lots of bizarre peptides and exotics on a day-to-day basis then it’s a fantastic instrument.”
Professor, UK
Peptide synthesis is performed in disposable polypropylene reactor vials with PTFE frits. Available in three sizes: 2 mL, 5 mL and 10 mL.
Microwave Assisted Organic Synthesis ModeWhen configured as a microwave synthesizer, the Initiator+ SP Wave is able to perform reactions at a temperature of 300 °C and 30 bar pressure and capable of processing up to eight reactions unattended. Reactions are performed in microwave glass vials and mixing is achieved by magnetic stirring.
The 8-position sample bed gives the user a compact automation solution to start scale-up process and library build-up. The 8-position system is useful in a multi-user environment or for queuing multiple reactions. Flexible operation enables the use of both large and small vials in combination at any time and in any order without manual intervention.
ConsumablesA variety of reactor vials in different sizes are available for microwave peptide synthesis and microwave organic synthesis.
L Learn More
Synthesis of a Glycopeptide Aldehyde Using the O-BAL Strategy on the Initiator+ SP WaveApplication Note (AN055)
Microwave Assisted Organic and Peptide Synthesis of aNon-natural Arginine Residue and Incorporation Into aCyclic Peptide Mupain-1 AnalogueApplication Note (AN111)
Microwave Heating in Solid-Phase Peptide Synthesis: Three Degrees of AutomationPoster (P043)
Microwave Reaction VialsProduct Note (PPS449)
Organic synthesis is performed in high precision glass vials. Available in four sizes: 0.2–0.5 mL, 0.5–2.0 mL, 2.0–5.0 mL and 10–20 mL.
Biotage® Initiator+ SP Wave in MAOS configuration.
22 Peptide Synthesis Workflow | © Biotage 2020
Synthesis
ChemMatrix® ResinsA Major Advance in Solid Phase Peptide Synthesis
ChemMatrix® is a patented, 100% PEG (polyethy-leneglycol) based resin that offers substantial advantages over traditional PEG based polystyrene resins for solid phase peptide synthesis. Peptides produced with ChemMatrix have higher purity and can be obtained with better yields.
Rink Amide-ChemMatrix® HMPB-ChemMatrix® Wang-ChemMatrix® Trityl-ChemMatrix®
Product
Description
One of the most popular resins for both manual and automated SPPS, under microwave or non-microwave conditions. This is an excellent support for the synthesis of peptide amides and is compatible with our range of microwave peptide synthesizers.
Recommended for peptide acids, as this resin will provide high crude purity and a recovery yield of 90–95%. The Wang-ChemMatrix will produce similar crude peptide purity, but the recovery yield is lower (60–70%).
The first ChemMatrix resin developed for peptide acids. While the purity of peptides synthesized with this resin are excellent, the recovery yield is limited to 60–70%. For enhanced yields and higher recoveries (90–95%), we recommend using the HMPB-ChemMatrix.
Mainly used to obtain a protected peptide as it requires very low TFA cleavage conditions (under 1%). This resin therefore uses the same cleavage conditions as the Cl-Trityl-polystyrene. (Cl-Trityl-ChemMatrix resin is not offered for stability reasons. It is more effective to start with the Trityl-ChemMatrix resin, chlorinate the resin and then add the amino acid required.)
Final Product Peptide amide resin Peptide acid resin Peptide acid resin Peptide acid resin
Cleavage Conditions TFA/H2O/Et3SiH (95/2.5/2.5) TFA/H2O/Et3SiH (95/2.5/2.5) TFA/H2O/Et3SiH (95/2.5/2.5) TFA < 1%
Loading 0.4–0.6 mmol/g 0.4–0.6 mmol/g 0.40–0.65 mmol/g 0.40–0.65 mmol/g
Bead Size 100–200 mesh dry 100–200 mesh dry 100–200 mesh dry 100–200 mesh dry
Why use ChemMatrix® resins?
» Synthesize peptides with higher crude purity
» High chemical stability
» High loading
» Compatibility with a large range of solvents
» Compatible with microwaves
24 Peptide Synthesis Workflow | © Biotage 2020
Purification
Flash chromatography has been demonstrated to be a very efficient technique to dramatically clean-up synthetic peptides. The goal of flash purification is to process larger quantities of crude material rapidly and this is now possible for purification of peptides. We can offer close to prep-HPLC performance in a flash format at a fraction of the cost.
The purification step is one of the main bottlenecks in the peptide synthesis workflow. Preparative RP-HPLC is normally the method of choice but is limited by small loading amounts, long separation times, poor recoveries and high costs. In
addition, crude synthetic peptides contain impurities with retention characteristics very similar to the target peptide which can present additional purification challenges. Is there an alter-native to prep-HPLC? Although there are a number of examples in the literature, flash chromatography is a largely overlooked technique for purification of synthetic peptides.
Biotage Flash Purification SystemsThe Fast Track to Pure Peptides
L Learn More
Biotage® Selekt – 5 Reasons to Selekt BiotageProduct Brochure (PPS495)
Mass Directed Flash Chromatography by Biotage - Dalton Mass DetectorsProduct Brochure (PPS450)
Isolera™ Spektra is a high performance system with time, efficiency and cost saving purification features.
25
Purification
Why Use High Performance Flash Chromatography? » Enables fast and efficient purification of
peptides and larger molecules.
» Increased loading capacity compared to prep RP-HPLC which allows more peptide to be processed in a single injection.
» Reduction in solvent usage and therefore waste compared to RP-HPLC.
» Depending on the quality of the peptides synthesized, flash chromatography can be adopted in the workflow either as the sole method of purification or as a front end clean-up prior to RP-HPLC.
» Our flash chromatography solutions have been used to purify peptides, PNA, peptoids and peptidomimetics.
““It’s just chromatography! If you produce a peptide of sufficient purity with no critical impurities, why not use the Isolera.”
Senior Lecturer, UK
Biotage® Selekt Isolera™ Dalton 2000 system Biotage® Dalton 2000 is a compact single quadrupole mass detector with simultaneous positive and negative polarity switching. Mass detection range m/z 10–2000.
Flash Purification SystemsBiotage® SelektBiotage® Selekt is the smallest flash purification instrument and the only one with two column channels, allowing to switch automatically from normal to reverse phase. Selekt features the widest range of UV-Vis detection (198–810 µm), and a fraction collector that pauses between tubes, so the sample is never lost. The proprietary gradient calculation method and the default high equilibration flow rates reduce run time and solvent consumption.
Biotage Isolera™ OneIsolera™ One flash purification system is designed to help purify synthetic reaction mixtures, natural product extracts and other mixes of organic compounds. Isolera One is a single channel system, and ideal to be used by one or two chemists. Combined with the powerful features in the Spektra software, Isolera One a can performthe most advanced chromatography.
Biotage® SpektraSpektra is a software package, available for Selekt and Isolera with extended features for chromatography and purity analysis. Features include simultaneous UV-detection on all wavelengths and baseline correction. The unique behavior of the lambda-all functionality, together with the uniquely designed baseline correction enables detection of poor UV absorbing compounds.
Integrated Mass DetectionCombine your Isolera™ purification system with a Dalton mass detector to experience true mass-directed flash chromatography of peptides. Mass-based fractionation offers the advantage of being able to separate products with no UV signal and also resolve peaks with overlapping UV signals such as peptidic deletion sequences. Isolera™ Nanolink is a coupling interface which handles all the sampling flows between Isolera™ and the mass detector.
26 Peptide Synthesis Workflow | © Biotage 2020
Purification
Biotage’s instrumentation is complemented by a complete range of flash columns optimized for use on Biotage flash purification systems. Our various reversed phase media types can address the different peptide purities required for diverse applications.
Biotage® Sfär Bio is a new range of high performance flash cartridges developed with a small particle size (20 µm) and larger pore size (~300 Å) for reversed phase purification of peptides and other larger molecules. Sfär Bio is available in C18 and C4 formats.
Biotage® Sfär BioFlash Purification Columns for Purification of Peptides
Some peptides can be purified in a single injection (page 27 a, b) and for other peptides you can quickly remove many of the impurities by flash, and make the subsequent HPLC purification easier by reducing the quantity to be purified (page 27 c, d, e).
Samplets are also available for some media types, which can act as a guard cartridge.
Biotage® Sfär Bio columns were developed with a smaller particle size and larger pore size to provide increased resolution and more effective separation of complex peptide mixtures.
27
Purification
Biotage Reversed Phase Cartridges
Cartridge Silica Particle Size (μm) Pore Diameter (Å)
Biotage® Sfär C18 Duo 100 Å 30 μm 30 100
Biotage® Sfär Bio C18 Duo 300 Å 20 μm 20 300
Biotage® Sfär Bio C4 D Duo 300 Å 20 μm 20 300
Sole Purification Methodsa. Chromatogram of PYY (3-36) peptide purified using a Biotage® SNAP Bio C18 flash cartridge.
b. HPLC chromatogram of flash purified PYY (3-36) peptide, >95% purity.
Front-end Cleanup Prior to RP-HPLCc.HPLCchromatogram of crude Lys M1.
d. Chromatogram from the flash purification of Lys M1 using Biotage® Bio C18 300 Å flash cartridge.
e. HPLC chromatogram of Lys M1 peptide purified by flash chromatography on Biotage® Bio C18 300 Å flash cartridge.
Lys M1
Lys M1
a) c)
e)
d)
b)
L Learn More
Using Peptide Synthesizers for Discovery of Non-standard PeptidesCustomer Case PPS406
Peptide Synthesis Workflow SolutionsCustomer Case PPS439
Flash Chromatography, a Fast and Efficient Techniquefor Purification of Peptides Part 1Application Note AN112
Flash Chromatography, a Fast and Efficient Techniquefor Purification of Peptides Part 2Application Note AN113
Biotage® Sfär ColumnsProduct Brochure PPS497
PYY 3-36
28 Peptide Synthesis Workflow | © Biotage 2020
Purification
““Without the V-10, our entire workflow must be changed dramatically at significant time and cost.”
Scientist, Biotechnology Co., USA
Evaporation
29
Evaporation
Peptide purification can generate a large number of fractions that require concentrating and pooling prior to freeze drying. The powerful Biotage® V-10 Touch solvent evaporation system rapidly dries samples dissolved in both aqueous and organic solvents. It easily evaporates fractions from purification or high boiling-point solvents from syntheses such as NMP or storage solvents such as DMSO.
The built in optimized methods have been designed to protect the sample against overheating or bumping while still maintaining maximum evaporation speed.
Typical Solvent Evaporation Times UsingDefault Settings (Including Final Dry)
Solvent Volume (mL) Method Time
(min)
NMP 12 Very High Boil 18DMF 12 Very High Boil 7DMSO 12 Very High Boil 15Water 12 Aqueous 1650% Acetonitrile in Water 12 HPLC Fractions 1520% Piperidine in DMF 8 Mixed Vol & HPB 7TFA 5 Volatile 5
L Learn More
Biotage® V-10 Touch Evaporation SystemProduct Video
Biotage® V-10 Touch Product Folder (PPS415)
Using Peptide Synthesizers for Discovery of Non-standard Peptides Customer case (PPS406)
How Does V10-Touch Help Peptide Chemists?» Removal of cleavage cocktails, either completely or
reducing the volume before ether precipitation.
» Concentration and pooling of flash or HPLC fractions prior to freeze drying.
» Removal of high boiling solvents such as DMF, DMSO that are used in synthesis reactions or as storage solvents.
» Can be used post synthesis or post purification.
Biotage® V-10 Touch
You can run high-temperature reactions without worrying about solvent removal. Biotage® V-10 Touch rapidly evaporates high boiling-point solvents like DMF, DMSO and NMP.
You can run high-temperature reactions without worrying about solvent removal. Biotage® V-10 Touch rapidly evaporates high boiling-point solvents like DMF, DMSO and NMP.
You can set up a continuous processing of purified fractions
automatically by combining Biotage® V-10 Touch with a Gilson
liquid handler.
30 Peptide Synthesis Workflow | © Biotage 2020
Technical Specifications
Biotage® Initiator+ Alstra™
Heating ProcessTemperature Range 40–100 ºC
Temperature Increase Typically 2–5 ºC/s
Pressure Range Run at atmospheric pressure
Power Range 0–120 W at 2.45 GHz
Reactor Vial Sizes 5, 10 and 30 mL
Agitation Oscillating mixing unit
Reaction Volumes 5 mL (0.6–3.5 mL) 10 mL (3.5–10 mL) 30 mL (4.5–20 mL)
Inert Gas (microwave Cavity)
Approx. 2 L/min (0.07 cubic feet/min); 0.5 bar (0.05 MPa; 7.25 PSI)
Inert Gas (Manifold Option)
Approx. 4 L/min (0.14 cubic feet/min); 0.5 bar (0.05 MPa; 7.25 PSI)
Liquid HandlingSyringe Pump 3 x digital syringe pumps, with 10 mL sample loop
Flow Rate 6–50 mL/min
Reagent Bottles 5 x 185 mL GL45 glass bottles
Solvent Bottles 1 x 5 L, 1 x 2 L, and 1 x 1 L, GL45 brown glass bottles
Amino Acid Rack 32 x 30 mL
Waste Bottle 10 L
InterfacesTouch Screen 10.4”
Ethernet LAN Complies with IEEE 802.3 (ANSI 8802-3)
USB USB 2.0
Archiving/back-up Via USB
Printing Via LAN
System RequirementsOperating Temperature 18–32 °C
Storage and Transportation Temperature
-25°C to 60°C (-13°F to 140°F)
Humidity 20–95% at room temperature
Power Requirements Europe: 220–240 V~, 50 Hz (5 A) US and Japan: 100–120 V~,50/60 Hz (10 A)
Max. Power Consumed 1100 VA
Weight 42 kg (92.6 lbs.)
Dimensions (W X D X H) 640 x 430 x 640 mm (25.2” x 16.9” x 25.2”)
Vacuum Pump Minimum partial pressure: 100 mbar
Flow Rate 11 L/min (0.4 cubic feet/min)
Certifications CE, CAN/CSA certified
Technical Specifications
31
Syro I
System SpecificationAutomation Single robotic arm
Liquid Handling Two 5 mL digital syringe pumps
Agitation Vortex mixer for reactor block
Reactor Block (standard) One U-type reactor block for 2, 5 and 10 mL reactor vials. Choice of either 24 or 48 positions
Vacuum Pump ME 2C
Amino Acid Rack 40 x 50 mL
Reagent Bottle Rack 2 x 500 mL, 3 x 200 mL
Waste Bottle 1 x 10 liter Nalgene bottle
Equipment Includes desktop PC, flat panel monitor, printer, and Syro XP software
Dimensions (W X D X H) 56 cm x 70 cm x 91 cm
Weight 60 kg
Power RequirementsRobot (max. 250 W) EU:230 V~, 50 Hz (1.5 A)
USA: 120 V~, 60 Hz (2.5 A) Japan: 100 V~, 50/60 Hz (3.0 A)
Vacuum Pump EU: 230 V~, 50/60 Hz (1.4 A) USA: 120 V~, 60 Hz (3 A) Japan: 100–115 V~, 50/60 Hz (3.8 A)
Syro II
System SpecificationAutomation Dual robotic arm with a three tip pipetting washcomb
Liquid Handling Four digital syringe pumps - 1 x 5 mL digital syringe pump for amino acid addition, 3 x 10 mL digital syringe pumps for solvent wash and reagent addition.
Agitation Vortex mixer for two reactor blocks
Reactor Block (standard) Two U-type reactor blocks for 2, 5 and 10 mL reactor vials. Choice of either 24 or 48 positions
Vacuum Pump ME 4C
Amino Acid Rack 40 x 50 mL
Reagent Bottle Rack 3 x 500 mL, 4 x 200 mL
Waste Bottle 1 x 20 liter Nalgene bottle
Equipment Includes desktop PC, flat panel monitor, printer, and Syro XP software
Dimensions (W X D X H) 82 cm x 70 cm x 91 cm
Weight 85 kg
Power RequirementsRobot (max. 250 W) EU:230 V~, 50 Hz (1.5 A)
USA: 120 V~, 60 Hz (2.5 A) Japan: 100 V~, 50/60 Hz (3.0 A)
Vacuum Pump EU: 230 V~, 50/60 Hz (1.4 A) USA: 120 V~, 60 Hz (3 A) Japan: 100–115 V~, 50/60 Hz (3.8 A)
Technical Specifications
32 Peptide Synthesis Workflow | © Biotage 2020
Biotage® Initiator+ SP Wave
Heating ProcessTemperature Range Peptide synthesis: 40°C to 100°C
Organic synthesis: 40°C to 300°C
Note: Biotage® Microwave Reaction Vials 10–20 mL for organic synthesis may not be used at temperatures above 250°C.
Temperature Increase Typically 2°C to 5°C per second depending on solvent and power applied.
Pressure Range Peptide synthesis: Run at atmospheric pressure Organic synthesis: 0 to 30 bar (3 MPa; 435 PSI)
Note: Biotage Microwave Reaction Vials 10–20 mL may not be used at pressures above 20 bar.Power Range Peptide synthesis: 0 to 120 W from magnetron at 2.45 GHz
Organic synthesis: 0 to 400 W from magnetron at 2.45 GHzReactor Vial Sizes Peptide synthesis: 2 mL, 5 mL and 10 mL
Organic synthesis: 0.2–0.5 mL, 0.5–2.0 mL, 2.0–5.0 mL and 10–20 mLAgitation Peptide synthesis: Vortex unit (500 to 1300 rpm)
Organic synthesis: Magnetic stirrer (300 to 900 rpm)Reaction Volumes Peptide synthesis:
2 mL reactor vial: 0.8–1.1 mL 5 mL reactor vial: 1.6–3.2 mL 10 mL reactor vial: 3.2–6.4 mL
Organic synthesis: 0.2 to 20 mL in microwave reaction vials
Inert Gas (optional) Approximately 2 L/min (0.07 cubic feet/min), 0.5 bar (0.05 MPa; 7.25 PSI)
Liquid HandlingSyringe Pump Digital single syringe pump, 11 mL with sample loop
Flow Rate 2–50 mL/min
Reagent Bottle Rack 3 x 100 mL
System Solvent 1 x 2000 mL
InterfacesTouch Screen 10.4”
Ethernet LAN Complies with IEEE 802.3 (ANSI 8802-3)
USB USB 2.0
Archiving/back-up Via USB
Printing Via LAN
System RequirementsOperating Temperature 18–32 °C
Storage and Transportation Temperature
-25 °C to 60 °C
Humidity 20–95% at room temperature
Electrical Supply Europe: 220–240 V~, 50 Hz (5 A) US and Japan: 100–120 V~, 50/60 Hz (10 A)
Max. Power Consumed 1100 VA
Weight 33 kg (72.7 lbs.)
Dimensions (W X D X H) 400 mm x 500 mm x 685 mm (15.7″ x 19.7″ x 27.0″)
Vacuum Source Minimum partial pressure: 100 mbar
Flow Rate 11 L/min (0.4 cubic feet/min)
Certifications CE, CSA certified
Technical Specifications
33
Isolera
System SpecificationFlow Rate 1–200 mL/min
Pressure Limit 145 psi (10 bar)
No. of Column Channels 1
UV Detection Choice of variable wavelength (200–400 nm), fixed (254 nm), or UV-VIS (200–800 nm) detectors
Collection Vessels Test tubes (13 mm, 16 mm, 18 mm, and 25 mm) and bottles (120 mL, 240 mL, and 480 mL)
System Control & Data Management On-board computer with 10.4” capacitive touch screen interface
Dimensions (W X H X D) 355 mm (14”) x 596 mm (23.5”) x 497 mm (19.6”). Add 178 mm (7”) with EXP
Weight 30–35 kg (66–77 lbs)
Power Requirements 100–240 VAC, 50/60 Hz, 4.0 A
Certifications CE, cTÜVus
Biotage® Selekt
System SpecificationFlow Rate 1–300 mL/min
Pressure Limit 435 psi (30 bar)
No. of Column Channels 2
UV Detection Choice of variable wavelength (200–400 nm) or UV-VIS (198–800 nm) detectors
Collection Vessels Test tubes (13 mm, 16 mm, 18 mm, and 25 mm) and bottles (120 mL, 240 mL, and 480 mL)
System Control & Data Management On-board computer with 15.0” (1024 x 768 px) solvent stable TFT LCD touch screen
Dimensions (W X H X D) 335/550* mm (13.2”/21.7”*) x 545 mm (21.5”) x 393 mm (15.5”). *With extended collection bed
Weight 23–25 kg (50-54 lbs), depending on system configuration
Power Requirements 100–127, 220–240 VAC, 50/60 Hz. Connect only to a grounded outlet
Certifications CE and FCC marked. CB and NRTL certified
Technical Specifications
34 Peptide Synthesis Workflow | © Biotage 2020
Technical Specifications
Biotage® V-10
Solvent Compatibility Boiling points from 30 °C to 160 °C (up to 205 °C with an external vacuum pump). The system is not suitable for solutions containing HCl at any concentration.
Heating 20 °C to 70 °C
Rotational Speed 3000 to 8000 rpm
Condenser Refrigerated condenser temperature: -25 °C. Automated and manual draining; and manual defrost.
Vacuum Pressure control method: Variable speed and level. Internal vacuum Pump: 2 mbar. Optionally an external vacuum pump can be connected using a KF-16 vacuum flange.
Vial Compatibility 30 mL scintillation vial 20 mL scintillation vial 16 mL vial 8 mL vial 4 mL
Solvent Reclamation Up to 98% of solvent vapors under typical conditions
Exhaust Double trapping
Electrical Supply 220–240 V~, 50 and 60 Hz, 10 A
Max. Power Consumed 2100 VA
Dimensions (WxDxH) 40 cm x 48 cm x 53 cm 15.7” x 18.9” x 20.9”
Weight 50 kg/110 lbs
Part Numbers V10-2XX V-10 Touch System V10-2SC V-10 Touch System with Solvent Manager and Automation
Accessories 411181 Carousel Vial Holder 30/20 mL vials 411816 Gilson Liquid Handler GX271 - V-10
35
Synthesis
Biotage® Initiator+ Alstra™
Product Part Number
Initiator+ Alstra Microwave Peptide Synthesizer 356701Vacuum pump ME1C, 100–230 VAC 50–60 Hz 356330SP
Optional Accessories and ConsumablesInert gas manifold 356208Alstra UV Monitoring Kit 356444Alstra MAOS Kit 356445Alstra RemoteTM Software (single licence) 4164085 mL Reactor vial with PTFE frit 50/pk 35628810 mL Reactor vial with PTFE frit 50/pk 35628930 mL Reactor vial with PTFE frit 50/pk 3562905 mL Reactor vial extension 5/pk 35629110 mL Reactor vial extension 5/pk 35622130 mL Reactor vial extension 5/pk 35622210 mL Amino acid tubes 100/pk 35623930 mL Amino acid tubes 100/pk 35624050 mL Amino acid tubes 100/pk 35624120 x 10 mL Amino acid rack 35616224 x 30 mL Amino acid rack 35616732 x 30 mL Amino acid rack 35619328 x 50 mL Amino acid rack 35619820 x 10 mL Rack cover plate 35616324 x 30 mL Rack cover plate 35616832 x 30 mL Rack cover plate 35619428 x 50 mL Rack cover plate 356199R1-4 reagent bottle cover plate 356158R5 reagent bottle cover plate 35620320 x 10 mL Foil septa 5/pk 35616624 x 30 mL Foil septa 5/pk 35619232 x 30 mL Foil septa 5/pk 35619728 x 50 mL Foil septa 5/pk 356202R1-4 reagent bottle foil septa 5/pk 356161R5 reagent bottle foil septa 5/pk 3562065 mL/10 mL Reactor vial caps 50/pk 35625230 mL Reactor vial caps 50/pk 356253Reactor vial plugs 50/pk 356292185 mL Reagent bottle, glass 356254Universal PTFE stopcock, 10/pk 121-0009
ServiceInstallation and training SER-IA-INService Agreement - Priority - Alstra SER-IA-SAPPeptide Application Training – 1 day SER-PEP-AT
Syro I and IIProduct Part Number
Syro I System
Parallel Peptide Synthesizer 48 x 2 mL Reactor Block
60 Hz, 115 VAC (USA)No options S1PS-1A-X-XInert Gas S1PS-1A-IG-XInert Gas, Tip Synthesis S1PS-1A-IG-TSTip Synthesis S1PS-1A-X-TS
50 Hz, 230 VAC (UK/EU)No options S1PS-2A-X-XInert Gas S1PS-2A-IG-XInert Gas, Tip Synthesis S1PS-2A-IG-TSTip Synthesis S1PS-2A-X-TS
50/60 Hz, 100 VAC (JPN)No options S1PS-3A-X-XInert Gas S1PS-3A-IG-XInert Gas, Tip Synthesis S1PS-3A-IG-TSTip Synthesis S1PS-3A-X-TS
Parallel Peptide Synthesizer 24 x 5 mL Reactor Block
60 Hz, 115 VAC (USA)No options S1PS-1B-X-XInert Gas S1PS-1B-IG-XInert Gas, Tip Synthesis S1PS-1B-IG-TSTip Synthesis S1PS-1B-X-TS
50 Hz, 230 VAC (UK/EU)No options S1PS-2B-X-XInert Gas S1PS-2B-IG-XInert Gas, Tip Synthesis S1PS-2B-IG-TSTip Synthesis S1PS-2B-X-TS
50/60 Hz, 100 VAC (JPN)No options S1PS-3B-X-XInert Gas S1PS-3B-IG-XInert Gas, Tip Synthesis S1PS-3B-IG-TSTip Synthesis S1PS-3B-X-TS
ServiceService, installation and initial training SER-PS1-INService Agreement - Priority - Syro I SER-SY1-SAPPeptide Application Training – 1 day SER-PEP-AT
Ordering Information
Ordering information
36 Peptide Synthesis Workflow | © Biotage 2020
Product Part Number
Syro II System
Parallel Peptide Synthesizer 2 (48 x 2 mL) Reactor Blocks
60 Hz, 115 VAC (USA)No options S2PS-1A-X-XInert Gas S2PS-1A-IG-XInert Gas, Tip Synthesis S2PS-1A-IG-TSTip Synthesis S2PS-1A-X-TS
50 Hz, 230 VAC (UK/EU)No options S2PS-2A-X-XInert Gas S2PS-2A-IG-XInert Gas, Tip Synthesis S2PS-2A-IG-TSTip Synthesis S1PS-2A-X-TS
50/60 Hz, 100 VAC (JPN)No options S2PS-3A-X-XInert Gas S2PS-3A-IG-XInert Gas, Tip Synthesis S2PS-3A-IG-TSTip Synthesis S2PS-3A-X-TS
Parallel Peptide Synthesizer 2 (24 x 5 mL) Reactor Blocks
60 Hz, 115 VAC (USA)No options S2PS-1B-X-XInert Gas S2PS-1B-IG-XInert Gas, Tip Synthesis S2PS-1B-IG-TSTip Synthesis S2PS-1B-X-TS
50 Hz, 230 VAC (UK/EU)No options S2PS-2B-X-XInert Gas S2PS-2B-IG-XInert Gas, Tip Synthesis S2PS-2B-IG-TSTip Synthesis S2PS-2B-X-TS
50/60 Hz, 100 VAC (JPN)No options S2PS-3B-X-XInert Gas S2PS-3B-IG-XInert Gas, Tip Synthesis S2PS-3B-IG-TSTip Synthesis S2PS-3B-X-TS
ServiceService, installation and initial training SER-PS2-INService Agreement - Priority - Syro II SER-SY2-SAPPeptide Application Training – 1 day SER-PEP-AT
Product Part Number
Syro I and II Accessories
Inert Gas Cover PlatesInert Gas Cover Plate 24 x 2 mL reactor Z002IC024Inert Gas Cover Plate 24 x 5 mL reactor Z005IC024Inert Gas Cover Plate 24 x 10 mL reactor Z010IC024Inert Gas Cover Plate 48 x 2 mL reactor Z002IC048Inert Gas Cover Plate 96 pos. for Tip-reactors Z004IC096Inert Gas Cover Plate 12 x 2 mL reactor Z002IC012Inert Gas Cover Plate 12 x 5 mL reactor Z005IC012Inert Gas Cover Plate 12 x 10 mL reactor Z010IC012Inert Gas Cover Plate 12 x 20 mL reactor Z020IC012
Transfer Units for CleavageTransfer Unit 24-position Syro I S011TU124Transfer Unit 48-position Syro I S011TU148Transfer Unit 24- and 48-positions Syro I S011TU142Transfer Unit 24-position Syro II S011TU224Transfer Unit 48-position Syro II S011TU248Transfer Unit 12-position Syro I S011TU112Transfer Unit 12-position Syro II S011TU212Transfer Unit 48-position for 5 mL reactors (Syro II only
S011TU248-5
Transfer Unit 24- and 48-positions Syro II S011TU242Vortex mixer, stand-alone, for two U-block reactors during cleavage
S006VO002
U-Block Reactors and Empty HeadsU-block Reactor, 24 x 2-5-10 mL Z024UB050U-block Reactor, 48 x 2 mL Z048UB020U-block Reactor, 96 x 2 mL (Syro II only) Z096UB020U-block Reactor, 12 x 2-5-10-20 mL Z012UB200U-block Reactor, 48 x 5 mL (Syro II only) Z048UB050Empty Head, 12-position Z012AK000Empty Head, 24-position Z024AK000Empty Head, 48-position Z048AK000Empty Head, 96-position (Syro II only) Z096AK000
Heating Block Reactors and PlatesHeating Block (24 position) Syro I for 2ml Reactors
S015HT021
Heating Blocks (2 x 24 position) Syro II for 2ml Reactors
S015HT022
Heating Block (24 position) Syro I for 5ml Reactors
S015HT051
Heating Blocks (2 x 24 position) Syro II for 5ml Reactors
S015HT052
Heating Block (24 position) Syro I for 10ml Reactors
S015HT101
Heating Blocks (2 x 24 position) Syro II for 10ml Reactors
S015HT102
Heating PlatesHeating plate (24 position), 2 mL vials Z024HP020Heating plate (24 position), 5 mL vials Z024HP050Heating plate (24 position), 10 mL vials Z024HP100
Ordering information
37
Ordering information
Syro I and II ConsumablesProduct Part Number
PP-Reactor 2 mL with PTFE frit, 100/pk V020TF051PP-Reactor 5 mL with PTFE frit, 100/pk V050TF062PP-Reactor 10 mL, with PTFE frit, 100/pk V100TF086PP-Reactor Tip 0.4 mL with PE Frit, 96/pk V004PE050PP-Reactor 10 mL with PTFE frit (for inert gas), 100/pk
V100TF073
PP-Reactor 20 mL, with PTFE-frit, 100/pk V200TF086PP-Reactor 20 mL, with PTFE-frit (for inert gas), 100/pk
V200TF073
Luer Stoppers, 100/pk V000LS100Universal PTFE stopcock, 10/pk 121-0009Plunger with PTFE cap 5 mL, 1/pk V050TF050Plunger with PTFE cap 10 mL, 1/pk V100TF100PP plunger for 5 mL reactors 100/pk V050ST050PP plunger for 2 mL reactors 100/pk V020ST020Position Stopper 2 mL reactor, 30/pk V020PS000Position Stopper 5 mL reactor, 30/pk V050PS000Position Stopper 10 mL reactor, 30/pk V100PS000
Biotage® Initiator+ SP WaveProduct Part Number
Initiator+ SP Wave (EU) 356014Initiator+ SP Wave (USA/JPN) 356015
Optional Accessories and ConsumablesPP-Reactor 2 mL with PTFE frit, 100/pk V020TF051PP-Reactor 5 mL with PTFE frit, 100/pk V050TF062PP-Reactor 10 mL with PTFE frit, 100/pk V100TF086Vacuum pump ME1C, 100–230 VAC 50–60 Hz 356330SPWaste and scrubber kit 356016Biotage Microwave Reaction Kits, 0.2–0.5 mL, 100/pk 355458Biotage Microwave Reaction Kits, 0.5–2 mL, 100/pk 352016Biotage Microwave Reaction Kits, 2–5 mL, 100/pk 351521Biotage Microwave Reaction Kits, 10–20 mL, 50/pk 354833Cap 10 mL vial 355838Cap 5 mL vial 355839Cap 2 mL vial 355918Plunger with PTFE cap 5 mL, 1/pk V050TF050Plunger with PTFE cap 10 mL, 1/pk V100TF100Universal PTFE stopcock, 10/pk 121-0009
ServiceInstallation and training SER-ISPW-INService Agreement - Priority - SP Wave SER-SPW-SAPPeptide Application Training – 1 day SER-PEP-AT
Biotage® Initiator Peptide WorkstationProduct Part Number
Initiator Peptide Workstation, 2–5 mL vial (355964 + 355968)
355985
Initiator Peptide Workstation, 10–20 mL vial (355965 + 355968)
355986
2–5 mL Microwave peptide vial (barrel, check valve, frit, snap cap, and septum) and additional septum (5), frit (5), and check valve o-ring (2)
355964
10–20 mL Microwave peptide vial (barrel, check valve, frit, snap cap, and septum) and additional septum (5), frit (5), and check valve o-ring (2)
355965
InstrumentsInitiator+ Microwave System 356700
ConsumablesWash Station, 1/pk 3559681000 mL GL 45 lab glass bottle, 1/pk 3558142–5 mL Microwave peptide vial barrel, 1/pk 35578210–20 mL Microwave peptide vial barrel, 1/pk 355803Check valve, 1/pk 355957Check valve o-ring, Kalrez, 2/pk 355962Snap cap, 1/pk 355804Septum, 5/pk 355960Disposable HDPE frit, 5/pk 355961Magnetic stir bars, 2–5 mL, 5/pk 355984Magnetic stir bars, 10–20 mL, 5/pk 353930 Vacuum seal, Kalrez, 1/pk 355959Vacuum seal, Viton, 5/pk 355966Rubber feet, wash station, 4/pk 355967
ChemMatrix® ResinsResin Volume Part Number
HMPB-ChemMatrix 5 g 7-820-1310-5HMPB-ChemMatrix 25 g 7-820-1310-25Wang-ChemMatrix 5 g 7-320-1310-5Wang-ChemMatrix 25 g 7-320-1310-25Trityl-ChemMatrix 5 g 7-420-1310-5Trityl-ChemMatrix 25 g 7-420-1310-25Rink Amide-ChemMatrix 5 g 7-600-1310-5Rink Amide-ChemMatrix 25 g 7-600-1310-25
38 Peptide Synthesis Workflow | © Biotage 2020
Purification
Flash SystemsProduct Part Number
Isolera™
Isolera™ One, One Channel, Single Collection Bed, 200–400 nm Detector
ISO-1SV
Isolera™ One, One Channel, Single Collection Bed, 200–800 nm UV-VIS Detector
ISO-1SW
Isolera Spektra Package ISO-SPK13 x 100 mm Isolera vial rack, pk/4 41178918 x 150 mm Isolera vial rack pk/4 41179225 x 150 mm Isolera vial rack pk/4 411793
Biotage® Dalton 2000Biotage® Dalton 2000 Mass Detector APCI 100 VAC incl. roughing pump
DALT-2000-APCI-100V
Biotage® Dalton 2000 Mass Detector APCI 115 VAC incl roughing pump
DALT-2000-APCI-115V
Biotage® Dalton 2000 Mass Detector APCI 230 VAC incl roughing pump
DALT-2000-APCI-230V
Biotage® Dalton 2000 Nanolink DALT-2000-NLINK
Spektra License for Dalton 2000 DALT-2000-SW
Biotage® SelektBiotage® Selekt, Two Channel, Single Collection Bed, UV Detector
SEL-2SV
Biotage® Selekt, Two Channel, Single Collection Bed, UV-VIS Detector
SEL-2SW
Biotage® Selekt, Two Channel, Extended Collection Bed, UV Detector
SEL-2EV
Biotage® Selekt, Two Channel, Extended Collection Bed, UV-VIS Detector
SEL-2EW
Biotage® Selekt, Spektra Software Package SEL-SPK13 x 100 mm RFID Rack (incl 3 pcs.) 416301SP16 x 100 mm RFID Rack (incl 3 pcs.) 416302SP16 x 150 mm RFID Rack (incl 3 pcs.) 416303SP18 x 150 mm RFID Rack (incl 3 pcs.) 416305SP25 x 150 mm RFID Rack (incl 3 pcs.) 416306SP120 mL flask RFID Rack (incl 3 pcs.) 416307SP240 mL flask RFID Rack (holds 10 flasks) 416230SP480 mL flask RFID Rack (holds 8 flasks) 416225SPBiotage® Selekt Secondary Solvent Containment
416321SP
Biotage® Selekt Instrument Tray with Solvent Sensor
416410SP
Ordering information
Flash ConsumablesProduct Part Number
Biotage® Sfär Bio C18 DBiotage® Sfär Bio C18 D - Duo 300 Å 20 μm 10 g FSBD-0411-0010Biotage® Sfär Bio C18 D - Duo 300 Å 20 μm 25 g FSBD-0411-0025Biotage® Sfär Bio C18 D - Duo 300 Å 20 μm 50 g FSBD-0411-0050Biotage® Sfär Bio C18 D - Duo 300 Å 20 μm 100 g FSBD-0411-0100
Biotage® Sfär Bio C4 DBiotage® Sfär Bio C4 D - Duo 300 Å 20 μm 10 g FSBD-0412-0010Biotage® Sfär Bio C4 D - Duo 300 Å 20 μm 25 g FSBD-0412-0025Biotage® Sfär Bio C4 D - Duo 300 Å 20 μm 50 g FSBD-0412-0050Biotage® Sfär Bio C4 D - Duo 300 Å 20 μm 100 g FSBD-0412-0100
SampletsBiotage® Sfär HMN-R Samplet® for 5/10g Column SAS-0825-0010Biotage® Sfär HMN-R Samplet® for 25g Column SAS-0825-0025Biotage® Sfär HMN-R Samplet® for 50/100g Column SAS-0825-0100Biotage® Sfär HMN-R Samplet® for 200/350g Column SAS-0825-0350Biotage® Sfär C18 Samplet® for 5/10 g Column SAS-0401-0010Biotage® Sfär C18 Samplet® for 25 g Column SAS-0401-0025Biotage® Sfär C18 Samplet® for 50/100 g Column SAS-0401-0100Biotage® Sfär C18 Samplet® for 200/350 g Column SAS-0401-0350
EvaporationProduct Part NumberV-10 Touch System V10-2XXV-10 faceseal, Chemraz, 1/pk 413210Vacuubrand RZ 2.5 external vacuum pump kit, 120V 412905External vacuum pump connection kit for Vacuubrand and Edwards hi-vac. pumps
413146
Vacuubrand RZ 2.5 external vacuum pump kit, 230V 413149
© Biotage 2020
Title Truncated if Neccessary... | Page 42
Part Number: PPS446.v2
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